Record controlled perforating apparatus



Feb; 1, 1944.

c. R. DOTY ET AL 2,340,801

RECORD CONTROLLED PERFORATING APPARATUS 14 Sheets5heet 1 Filed July 2, 1942 il 0:00.00 F 29 2 E I ll.

l 3 NV NT RS TOHNE Y Feb. 1, 1944. c. RDOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS Filed July 2. 1942 14 Sheets-Sheet 2 {a gyE TORS BY W WTTORNEY Feb.

(3. R, DOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS Filed July 2. 1942 14 Sheets-Sheet 5 FIG.3.

FIGS.

A TTORNE Y 1944- c. R. DOTY ETAL 2,340,301

RECORD CONTROLLED PERFORATING APPARATUS Filed July 2, 1942 14 Sheets-Sheet 4 BY 5W menu 14 Sheets-Sheet 5 III FIG]

cfR. DOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS Filed July 2, 1942 Feb. 1, 1944.

00 see 00 o o o 0000 o o oo o oo oo ooo oo o 6 000 00 00 000 o o o 0 0Q 0a 000 0 00000 FIGJA.

0 0 eoooooeoooooooooooooao -2 -I.VENTOR5 BY WZZTTORNEK Feb. 1, 1944. c. R. DOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS Filed July 2, 1942 14 Sheets-Sheet 6 14 Sheets-Sheet 7 2:2:DIDDDDDJDDDD C. R. DOTY ET AL Filed July 2, 1942 Feb. 1, 1944.

RECORD CONTROLLED PERFORATING APPARATUS hin- ; Jrl ll uln fir.

Fehl, 1944- c. R. DQTY ET AL 2,340,801

RECORD CONTROLLED PERFORATING APPARATUS Filed July 2, 1942 14 Sheets-Sheet 8 5 u F l G. 12. "g g!!! {15,595 111 Feb. 1, 1944. c. R. DOTY ET AL 2,340,801 I RECORD CONTROLLED PERFORATING APPARATUS Feb. 1, 1944. Q DQTY ET AL RECORD CONTROLLED PERFORATING APPARATUS 14 Sheets-Sheet 10 a Filed July 2 1942 wsr/Waurm a AlflyJ" lat! INV N (5R5 a- TTORN E Y.

Feb. 1, 1944. c. R. DOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS Filed July 2, 1942 14 Sheets-Sheet 11 (5M wmg.

ATTORNEY.

All-1 Feb. 1, 1944. c. R. DOTY ET AL RECORD CONTROLLED PERFORATING APPARATUS W TOR-5 14 Sheets-Sheet 12 Filed July 2, 1942 @npd 4: 3. 7 a w 0W224 5 78 6 d wwwgazyzyww M m w M 7 am? um W w w 3 2 a ##L 111-1111 {fill m wfl F 5/. 4 I 6 mm n R 0, k H a R n I p. R a R w ,7 J ET I I f I mm 3 j w w w f f M j j j j A n n n 1 r b 6. A 6 A ,8 6 A 6 2 ,5 5 v m w" 5 a a a q m a Z a w #1 a "1 N 1 a 1 1 1 1 r r w 1 mwuhii iEEE EE E a b i fl W". I 1". 1 ...u i n a n m Um t rm E 1 21 L1 PT I. :1 f E1 1 rt 6 M n U V w v m 5 0 5 9 7 3 2 6 3 7 0 a 7 W w w M M w m m m M w M m M m '0 a n m w lillillili||i||||||||f 4 0 M A TTORNE Y.

Patented Feb. 1, i944 chimes it. Doty, Yonkers, and Edward '1. Babends, Binghamton, N. 2., assignors to International Business Machines Corporation, New

York. N. Y, occupation of New York Applieationlulyizi, 1m, sol-m No. 449.44;

- invention relates to record jcontrolled peri'orating-apparatus, and more particularly to such J apparatus who in the data designations are re-'-.

corded on a sh t-in a code which is different from the code of the data designations sensed on the control record.

a In stating that the key siBhfl-dlflfldede certain character designating'perforations, we refer to the order in which the characters are printed.

' which is not necessarily the order in which they A primaryobject of the present invention resides in the provision of improved apparatus whereby the information recorded on telegraphic tape, suitable for controlling the operations of retical or tabulating sheets or cards.

In the usual printing telegraph or teletypewriter systems, a five-unit Baudot or Teletype so motely situated printing telegraph transmission and recording devices, may be recorded in statis lecting' code is employed to represent the various symbols to be transmitted. This code provides amaximumoi thirty two different combinations so that thirty two different signals may be transmitted over the telegraph system by this code. In order to enable the transmission of more than thirty two different characters and symbols, the

will be read, as inreverse-printing systems.

. Carriage return refers to the backward relative movement of the type basket and platen along the printing line, which in some machines is executed by the type basket, in others by the platen.

In 'the present' commercial vstatistical or tabu lstingsystems, it is common practice to record the information or data on tabulating cards by perforationswhich are arranged, singly or in v diil'erent combinations, in diiierent positions in adjacent vertical columns. The statistical code,

such as the Hollerith code, employed in such tab ulating systems is wholly different from the fiveunit code used in printing telegraph systems.

same code combinations, for example, are em ployed for designating'alphabetical and numerical data; thus, it is nece'ssary,.for intermixed alphabetical and numerical data, to employ a key signal for identifying the data designating code combinations or signals as alphabetical or numerical. Also, when teletypewriters or "printers are controlled by telegraphic tapes, it is nec- Thus, whenever it is desired to prepare statistical cards in accordance with the data contained on a telegraphic tape, and automatically under 1 the control of such tapes, it is necessary to provide the following features, (1) suitable translating means whereby the sensed verted-into, and recorded on thecards, in .the

statistical code, (2) suitable means for determining whether the data on the tape are of the alessary that the functional" signals (suchaswriters type basket position are punched in the tape in position to be sensed before the'signal representing the character next to be printed is sensed. The mentioned key signals are punched in the tape in position to be sensedbefore the signal designating the first character to be printedcarriage return") which control the'teletypein a new line isisensed, also before the first numeral signal following aletter signal, or vice versa, that may occur during the printing of a line.

Accordingly, the following provisions must'be made in the telegraphic tape, (1) that the "letters and "figures" key signals or codes must be perforated in the tape preceding the character designating perforations to indicate whether the coded perforations designate alphabetical or numerical data, and (2) that "carriage return and line feed signals or codes must be perforated in the tape before the character designations of the next line are recorded on the tape. These. latter signals return the teletypewriter carriage to the 1eft-hand margin, and space the paper to the next printing line.

phabetical or numerical group, and automatically providing the perforating the corresponding data on the statistical .cards, and (8) suitable means I for determining the presence of the-"letters" or 1 "figures" key code on the tape and preventing these key code designations from operating the oardpunch elements.

In the prior art, systems analyzin coded data designating perforations in a tap it nverting the analyzed codeinto a statistical code, and controlling statistical card punch elements in accordance with the analyzed data.

' The United States patent to Carroll no. 1,976,600, issued October 9, 1934; the U. 8. Patent No.-

2,160,152, issued to W. F. Kelley, May 80, 1939;

U. 8. Patent No. 2,172,754, issued to Lester and Kelley, September 12, 1989; and U. 8. Patent No.

2,183,820, issued to Nelson and Johnston. December, 19, 1039, are examples of the mentioned prior art systems. In' another prior art system shown in Nelson Patent No. 1,927,656, statistical data.

punched in cards in one code are telegraphically transmitted and punched at a receive station in another code. However, these mentioned systems are not arranged tor analyzing the standard telegraphic tape containing data designa I data in telegraphiccode on the tapes are automatically con 7 have shown for tions recorded in Baudot code, which d signations are pr by "letters" and .fflgures" key data designations belong to alphabetical 'or numerical groups, and controlling the operations of statistical card punching means accordingly.

The specific embodiment to be described serves merely as one illustrative form of the invention,

and comprises a suitable telegraphic tape reader or sensing unit whereby the transverse rows of key and data designations are presented successively, step by step, to the individual sensing ing relays are selectively controlled by the sensing elements for translating ,or converting the telegraphic Baudot code into the Hollerith code, and controlling selectively the energization of the in statistical code on the cards. "Letters" and figures control circuits are provided, and are sensing elements, for supervising the conditionby the said translating and distributing relays) whereby the key code designations per se exercise no controlling effects on the punch magnets, but

in accordance with the immediate subsequently their representative key code designations. In the instant case, the letters or fi ures supervisory control means are maintained effective, until the other key' code designation is effective to control its related supervisory means. Circults, under control of a punch column read-out device are also provided for preventing tape sensing and feeding operations during the periods the card punch unit performs certain automatic P functional operations, such as card ejecting and carriage retumoperations, duplicating and tab.- ulating operations, and, upon completion thereof, automatically renewing tape sensing and feeding operations. Additional control circuits are arranged for cooperating with the said read-out device, which circuits function as means for checking all the functional operations of the tape sensing and card punching units to determine whether their operations are completed in unison, upon completion of each card punching cycle, by utilizing the carriage return and line feed" code designations as checking signals.

Accordingly, in addition to the mentioned features, another object of the present invention resides in the provision of an improved recording apparatus, wherein telegraphic records are sensed for controlling the operations of statistical sheet recording means in accordance with the sensed telegraphic data, and having means which are responsive to certain key code designations for determining whether the data to be recorded belong to the numerical or alphabetical data group.

Another object of the present invention resides in the provision of an improved perforating apparatus wherein the "letters or figurestsupervisory control means are maintained effective for controlling the statistical sheet perforating means, until the other key code designation is effective for controlling its related supervisory means.

Another object of the present invention resides in the provision .of an improved perforating apparatus wheren cyclically operable means are provided for rendering the telegraphic tape sensing and feeding means effective successively, at

ing of the card punch control circuits (controlled cause proper operations of the punch elements analyzed character designations associated ,with

code designations for indicating whether the elements. Groups of translating and distributcard punch magnets sotha't the alphabetical and numerical datasensed on the tape are recorded controlled selectively, under the influence of thepredetermined times, during each cycle of operation of the tape sensing unit.

' Another object of the present invention resides in the provision of an improved perforating apparatus wherein read-out means .are provided for automatically controlling the stopping and starting operations of the telegraphic tape sensing unit, respectively, during certain of the functional operations of the card perforating means, such as sheet ejection and carriage return operations, tabulating and duplicating operations.

Still another object of the present invention resides inthe provision of an .improved perforating apparatus wherein checking means are provided, which are capable of utilizing predetermined signals, such as "carriage return" and line feed" signals, for determining whether all the functional operations of the tape sensing and card perforating units are completed in unison, upon the completion of each cycle of operation of the said perforating unit.

Other objects of the invention will be pointed out in the following description and claims and illustrated in the accompanying drawings, which disclose, by way of example, the principle of the invention and the best mode, which has been contemplated, of applying that principle.

In the drawings:

Fig. 1 is a plan view of the telegraphic tape sensing unit.-

Fig. 2 is a sectional view taken along lines 2-2 of Fig. 1.

Fig. 3 is a front elevational view of the tape sensing elements.

Figs, 4 and 5 are detail views showing different stages of operations of certain elements of the tape sensing unit.

Fig. 6 is a timing chart of cyclically operable elements of the sensing unit.

Fig. 7 is a detail showing the telegraphic code employed herein.

Fig. 7A is a fragmentary section of a telegraphic tape bearing an exemplary message.

Fig. 8 is a detail of a statistical record card having coded data designating perforations formed therein in statistical code.

Fig. 9 is a plan view of the record card perforating unit and diagrammatically showing the electrically connected tape sensing unit.

Fig. 10 -is a sectional view illustrating details gilgonstruction of the record card perforating Fig. 11 is a sectional view, similar to Fig. 10, but taken on a section line further to the front of the perforating unit.

Fig. 12 is an enlarged view illustrating the details of the carriage escapement mechanism of the perforating unit.

Fig. 13 is a view, in side elevation, of the eiect ing mechanism of the perforating unit.

Figs. 14A to 14F arranged sequentially below each other is a diagram of the circuit connections or the apparatus.

General description key and character code perforations to the cycli-v functional operations of the punch unit'such as easily operable sensing pins 50. Sensing contacts 52, controlled by pins 50, are operated in different code combinations in accordance with the information sensed on the tape. The sensing contacts are connected to different translating re ays of the group R3--Ril (see Fig. 14A), which relays selectively control the operations of the groups of translating relay contacts (Figs. 1 4B and'lC) connected in a fan or cascade arrangement. Selective operations of different code groups of the connected translating relay contacts control the selectionsof individual distributing relays of the group Rik-R42. The distributing relay contacts (see the b and contacts, Figs. 14D and 14E) are connected, in a predetermined arrangement, to the individual conductors of the group 2082l9, which conductors, in turn, are connected to the so-called duplicating magnets N5 of the card punch unit. The said translating and distributing relays, and their associated contacts, are effective to translate or convert the data designations sensed in the five-unit telegraphic code to the statistical code, and accordingly control selectively the energizatlon of the said duplicating magnets, thereby'causing the code designating perforation representing the sensed data to be punched in the statistical record cards.

In order to distinguish properly, whether the sensed code designations in the telegraphic tape belong to the alphabetical or numerical group, supervisory circuitsare provided which are under control of the sensing contacts 52, and are selectively and automatically conditioned upon sensing the letters or figures" key code designations preceding the'rela'ter character code designations. 14D) are included in the said supervisory circuits, the contacts of which are effective to condition the circuits connected to thedlstributing relay contacts, in such a manner, that theduplicatingmagnets H! are controlled to perforate the record cards in the numerical or alphabetical statistical code designations in accordance with the subsequentl analyzed telegraphic character designations. It is to be understood, in the instant case, that whenever two rows of code groups of perforations on the telegraphic tape relate to the same group of characters namely. the numerical or alphabetical group,.a singlekey signal preceding a group of successive code designations representing characters ofthe same group is sufficient. Accordingly, the translating circuits are conditioned, under the influence of the "figures or letters key code designations, and are maintained in this condition so long as the subse- The figures relays RAJ-R46 (Fig.

card ejection and carriage return operations, tabulatlng and duplicating operations, and thereafter, upon completion t such operations, automatically cause the se ing operations to be renewed. Relay control means, such as relays 12.49-42.52, are also provided and cooperate with certain of'the said distributing relays and readout device for utilizing the carriage return and "line feed signals sensed on the telegraphic tape for determining and checking whether all the functional operations of the sensing and punching units were completed in unison, upon the completion of each cycle of operation of the punch unit. A punch unit or card cycle, in the instant case, refers to the period of operation of the punch unit, whereby a blank card is fed from the hopper to the different columnar positions to receive all the data designating perforations, and then positioned to the last column ready for ejec tion purposes.

Telegraphic control tape Referring now to Fig. 7, a tape 25 is shown provided with successive transverse rows of perforations 21 arranged in accordance with the well-known five-unit telegraphic code, usually referred to as the Baudot or Teletype permutative code. In a five-unit code system only thirty two possible permutations are available, and, as mentioned hereinabove, for this reason, it is necessary to employ the same code combinations to represent the alphabetical characters, and the numerical and other designation characters.

In order to distinguish the alphabetical characters from the other remaining characters, for telegraphictransmission purposes, the alphabetical signals or code designations are always preceded by a "letter shif signal or code designaquently analyzed character designations belong to the same character group. Upon sensing a change in the key code; correspondingly-appropriate conditioning of the translating circuits is effected and maintained accordingly. In addition thereto, the translating circuits are arranged and controlled so that the sensed key code designations per se are not capable of eflecting energization of the duplicating magnets, or advancing the card carriage from one column position to another.

The punch unit is provided with a read-out device I (See Figs. 9 and 14F) for automaticaltion. and the other remaining character signals or code designations are preceded by a "figure shift" signal or code designation. Whenever, it is desired. in the telegraphic printed copies, to have spacesappear thereon, it is necessary to insert space code designations in the perforated tape. For example, in the perforated tape shown in Fig. 7A, the indicated code perforations are;

arranged so as to designate 123John Jones 567; which arrangement of code designations in the perforated tape is necessary when the tape is 'employed for-controlling the known types of printing telegraph apparatus. The usual smaller feed perforations 26 are also shown to be provided in the tape 25, as well as the "carriage return and-line feed" perforations which are provided at the end of each line of information.

Tape sensing unit from a supply roll 28 under a guide post 29, over a tape guide armjfl, between a pair of separated blocks 1| and 32, over a sprocket wheel 33, and under ga guide post 34 to a take-up reel 3.

Sprocket wheel 33 is provided with the usual centrally located periphery teeth 36 for engaging the feed perforations 26 and feeding the tape in the direction shown by the arrow in Fig. 3. The said sprocket wheel is mounted on a shaft 31, suitably supported by side plate 390. and intermediate plate 39b, to which shaft ratchet wheel 38 is secured. Ratchet wheel 38 is rotated, step by step, by a Spring urged .pawl 40 (Fig. 2) pivotally mounted on a cam follower arm II, the latter stantly rotated cam ll, and follow the contour of the latter.

follower arm 4| and pawl 40, during rotation of the cam, are partially rotated in a clockwise direction, by means of spring 4!. thereby causing the pawl to ride over a tooth oi the ratchet wheel and be in a position for advancing the ratchet wheel, one step, when the high point of the cam urges the cam follower arm and pawl-in'a coun- The contour of cam I is designed .so that, upon release of the latch arm, the cam to the left, as viewed in Fig. 3, against the lower shoulders of recesses ll of the sensing pins ll, thus, holding the latter in their retracted positions, and maintaining the associated contacts I! in normally open positions.

Upon momentary energization of latch magnet 83, its armature is attracted and the latch plate 82 is withdrawn from the arm lie, so that the said lever I5 is unlatched or released, and, under the influence of spring 8|, the latter is urged in a clockwise direction (see Fig. 4), causing (1) release of latch, arm ll, due to withdrawal of I latch lever El on arm "b, (2) release of arm Ila terclockwise direction. A fixed plate 41 secured to side plate "a is providedywith a camming siuface-which is engaged by the freeend of pawl 40, as the latter is urged in a counterclockwise direction, thus, insuring a positive driving con-- nection between the pawl and ratchet wheel, and, also preventing an overdrive of the ratchet wheel.

' The usual spring urged detent arm ll is provided, a

and therebypermitting fullor effective cooperation between cam 51 and cam roller II, and (3) release of the sensing pins II. 'due to the partial clockwise rotation of ball 53.

and cooperates with a detent wheel '40 fixed to a shaft 31 for maintaining the said shaft 31, ratchet.

wheel 30, and sprocket wheel 33 in the advanced position.

By this described mechanism, the tape." is" advanced one step, for each cycle of operation of the machine for presenting the next transverse row of code perforations to the sensing elements. A single sensing element, such as sensins pin l0 (Fig. 3), having a shouldered recess Ii, is provided for each unit of the code. The individual sensing ins are suitably disposed in individual openings formed in an U-shaped guide block 12, and are arranged to cooperate with individual sets of suitably disposed contact means II. In-

in retracted positions, as shown in Fig. 3.- the said spring blades are urged sufliciently, to the left.

to-open the contacts I2.

Upon release of latch arm 43, cam follower arm during acyclic operation of com ll, is partially'rotated, first, in a clockwise direction,

and then, in a counterclockwise'direction to ad-. vance the ratchet wheel ll, shaft 31, and sprocket wheel 33, by means of pawl 40, thereby advancing the tape, one step, and presenting the next trans-- verse row of code perforations to the sensing pins.

Upon release of the sensing pins", the code perforations are detected or sensed, by the spring urged pins permitted to pass through the perforations and extend into suitable slots or openings formed in the block 3|. The travel of the code .groups of pins sensing the perforations is sufficient to permit the related contacts 52 to be "closed. In this manner, code groups of impulses can beinitiated in the individual signaling or control circuits connected to the said sets of contacts 52 for suitable controlling purposes.

During a cyclic operation of cam 51, the lever it is first partially *rotatedin a clockwise direction, and then in a counterclockwise direction. When the highest portion oi cam I1 is effective, the lever is urged in a counterclockwise direc-e tion sufliciently to raise the arm 550 above the Common to the said recesses of the sensing pin is a positionable vane or bail 53 secured to shaft 54. Shaft I4 is suitably iournaled in side plate "a and has secured thereto an inverted T or three armed lever IS, the left arm "a of which,

" as viewed in Fig. 2, is provided with a cam roller g 62 secured to the released armature N of latch magnet ll, thus latching the said inverted T lever 'inthe normal position shown in Fig. 2,- Normally, the latch arm II is held in a raised or latched position as shown. by means of the pivoted latch lever ll. thereby maintaining the tape feed pawl II in its uppermost or end-of-thestroke position, as indicated in Fig. 2. With the inverted T lever in the described normal position, the constantly cyclic operations of cams I! and released latch plate 62, as shown in Fig. 5, there'- by latching the lever 58 in the normal position. Also, during the cyclic operation of cam I1, and upon the partial counterclockwise rotation of lever" and shaft 54, the ball 53 is restored to its normal position, during which restoring operation, the shouldered recesses of the displaced sensing pins 50 are engaged and withdrawn from the perforations in the tape to restore the said pins and associated contacts to their normal po sitions. The said sensing pins and contacts are locked in this normal position so long as lever ll is maintained in the described latched position.

Obviously. the described tape feeding operation must be suppressed until the actual sensing of the code perforations and withdrawal of, the sensing pins from the tape are completed. In the instant case, it is preferred to prevent tape feeding until the sensing, pins are latched in their normal positions. Accordingly, the cams 4! and 51 are arranged so that the high point of the latter is effective to latch the lever 55, before the high point of the former is effective to cause actuation of the tape feeding pawl 40 (see timing 81 exercise no controlling effects on the related chart Fig. 8). For this reason, the latch lever II is arranged to be pivotally disposed on arm 55b. After the lever 55 is restored to normal, as shown in Fig. 5, and before the hish point of cam 45 is effective to raise the latch arm 43 to its latched position, the pivoted latch lever 58 abuts the end of latch arm 43, and is only restored into latching position by spring it, when the latch arm 43 is raised over the said lever 58. In this manner, tape feed operations are effected after the sensing pins are retracted irom the tape. and latched in the said retracted positions. It should also be mentioned that a suitably pivoted restoring lever 65 is provided for positively moving the latch plate 62 to its normal position, when the arm 550 is raised.

Now, with reference to Figs. 1 and 2, it is seen, that cams 5 and 51 are secured to and driven by shaft 56 to which worm gear 6! is amxed, said gear being in mesh with a worm 6B constantly rotated by motor 59. Thus, the cams are operated continuously for controlling the sensing and tape feed operations, at such times when the control magnet 63 is energized. Also, if desired for various circuit'controlling purposes, cams 10 and H are shown secured to shaft to for controlling the operations of the suitably disposed and related contacts Cl, and C2, C3 respectively. In addition thereto, a suitable frictional drive may be provided for the take-up reel 35, by providing a driving pulley 12 on shaft 86, which pulley is connected by a spring belt 13 to intermediate pulley H, the latter being secured to stud shaft 15 carrying'pulley I8, which in turn is connected to pulley 11 mounted on the take-up reel shaft is by spring belt 19.

Referring to'Fig. 3, additional circuit controlling means can be. provided in the form of contacts 80, which are arranged to be opened, upon exhaustion of the tape supp to the sensing pins 50. The tape guide arm is secured to shaft 8i iournaled in the side plate 39a, which shaft also carries bell crank lever 82. By means of spring 83, the said bell crank and tape guide arm are normally urged in a clockwise direction so that an insulating pin 84, SECUIoi to lever 62, opens contacts 80. This motion, however, is prevented when the supply of tape from roll 28 is not ex= hausted, due to the tape riding over the guide arm 30 and causing the said guide arm and pin 84 to be held in the positions shown in Fig. 3. An arcuately shaped and slotted tape guide member 85 is also provided to press the tape against the sprocket wheel 33, which member is secured to stud shaft 86 Journaled in side plate 39a. Also secured to stud shaft 861s a depending arm 8] arranged to engage the suitably disposed toggle spring 88. The said arm 81 is capable of enga ing a pin 89 (secured to lever 82), whenever the guide member 85 is raised manually (for example, during insertion of a new tape), to rotate the bell crank lever 82 and tape-guide arm 30 in a counterclockwise direction, thus facilitating tape removal or insertion operations.

In order to insure proper synchronous operations of thedescribed elements, it is preferred to include the cam controlled contacts Cl in the circuit connected to the control magnet 63. In this manner, irrespective of the times the control impulses are impressed upon the circuit ineluding magnet 63, the latter is not energized to release the said lever 55 until a predetermined time during each cyclic rotation of cams 45 and i, as indicated in the timing chart in Fig. 6. Thus, it is seen, by this provision, that the op erated elements are influenced and actuated in the described sequences.

This tape sensing or transmitter unit employed herein is shown and described, and claimed in copending application of Mills and Furman, Serial No. 449,446, filed July 2, 1942.

RECOTd card With reference now to Fig. 8, the sheet to be perforated is shown to comprise a. well known tabulating machine record card. generally desig nated C, or the type quite commonly used in the Hollerith electric tabulating systems. Differentially positioned control representations, such as perforations 80, are used to represent the various data and character designations. The perforations are differentially positioned in various, columnar areas or fields of the record card, and

by the difierential positioning thereoi difierent data values are imparted thereto. It is seen, that the letters ofthe alphabet are designated bytem. It will be noted, by reference to the said' code in Fig. 8, that the alphabet is divided into three groups. The letters of the first group A to I are designated by diflerent combinations of a perforation in the R" index point position with perforations in the one to nine index point positions. The letters of the second group J to R are designated by perforations in the X position and combination of perforations in the one to nine positions, while the letters of the third group S to Z are identified by combinations of.

a O perforation with perforations in the two to nine index point positions. The individual numerical characters are represented by a single perforation in the corresponding vzero to nine index point positions. The record cards may have as many columnar areas for the reception of the data designating perforations as may be desired. The description to be set forth hereinbelow re lated to mechanism commonly used in tabulating systems employing the standard eighty column record card.

Record perforating unit Referring now to Figs. 9-13, the controlled card punchv unit will be described. As mentioned hereinabove, the tape sensing unit is'electrically connected with the said punch unit to erlect punching of record cards, in predetermined columns, in accordance with the data sensed onthe telegraphic tape. The punch unit is well known in me art, and is usually referred to as The International duplicating punch. The following brief and general description is believed suiiicient in order to fully comprehend its use in the present invention; however, if a more detailed and complete description of the punch unit per se 18 desired, reierence should be made to U. :3. Patent No. 1,976,618, to the punch at the top 0i Fig. 1 of U. S. Patent No. 2,016,686.

During tne operational the said punch unit, a blank statistical card C is fed from the bottom of the hopper ill by the usual picker knife Hi2, and is advanced to the left, as viewed in Fig. 9;

to a position where the said card is received by matically removed, and the operation just set forth can be repeated.

The said punch unit can b controlled manually, by depression of the data keys H4, or automatically, under control of the magnets III, referred to in the art as duplicating selector magnets. The individual armature: II3 (Fig. of the magnets H5 are connected to the related keys II4 by individual pivoted links II1 so that. upon energization of the said magnets, the corresponding data keys II4 are caused to be dopressed. Depression of a key II4 actuates an associated bell crank H8 which, in turn, effects positioning of a related interposer II9 to the left, as viewed in Fig. 10. Whenever an interposer I I9 is thus positioned, it can be acted upon by 9. depending member 120 of a depressor plate I2I. Upon positioning an interposer 6, to the left. a common bail I22 is rocked, raising an arm I23, thereby causing contacts PC to be closed.

Closure of the said PC contacts causes energization of the punch magnet I24, whereupon, the armature I25 (Fig. 11) is swung about its pivot, rocking bell crank I26, through the link I21, and drawing downwardly the link I28, thereby-causing the depressor plate I2I to be rocked. Upon rocking oi the said depressor plate, the positioned interposer us is depressed, consequently, causing the corresponding punch I30 to be depressed to perforate the card in a corresponding index point position. As the punch passes through the card, and the link I21 moves to the right, the lug I3I pushes the arm I23 to the right (as viewed in Fig. 11) to release and open the said contacts PC, thereby causing the said punch magnet I24 to be deenergized, and permitting the punch and its actuating mechanism to return to the shown normal position.

with each punching operation, the well known escapement mechanism, shown in Fig. 12, is operated to permit the card carriage II3 to be released one step, in order to present the next adjacent column of the card to the punches. Thus, for each punching operation, shaft I32 is rocked in a clockwise direction and then a counterclockwise direction, to first effect disengagement of pawl I33 from teeth I34, formed on the top side of the card carriage rack I35, by a shaft actuated pin I33, and the engagement of latch pawl I31 with teeth I34. Spring I38 will then pull pawl I33. to the left, on its loose pivot, to rest on-top of a tooth, so that, when the counterclockwise movement of the shaft I 32 raises pawl I31, the advance of the rack I35 and card carriage II3 will be halted, by pawl I33 engaging the next tooth.

The rocking of the common bail I22 also causes the shaft I39, affixed thereto, to be rocked, as well as the T shaped element I40, consequently, opening the well known floating cam contacts FC, each time the card carriage is advanced. The usual skip bar I can be provided, for cooperation with the pawl I33 through the agency of the usual skip lifter arm I33a to permit an 'extended movement of the card carriage, until the next low spot in the skip bar allows the said pawl to be lowered.

Thus, it is seen, that the punches I30 can be operated selectively, under control of the duplicating magnets II 5, to efiect punching of the desired data in the card II 0, in adjacent columns, step by step, or, to automatically skip predetermined columns of the card, under control of the skip bar I, and effect punching only in certain predetermined columns. The usual skip magnet Ill and release magnet I12 (Fig. 14A) are provided for controlling the action of the said lifter arm |33a so that multiple column advancement of the card, and complete release of the card from any position to the last column position. respectively, can be effected upon energization of the said magnets.

The said card carriage H3 is provided with extensions I13 and I14 between which a pattern or master card M can be positioned and moved back and forth with the card carriage. Positioned above the pattern card is a contact roller I15 (see Fig. 14A) which is insulated from the frame of the machine. Directly below the roller is a row of positionable sensing brushes I16. The usual brush magnet I10 is provided, which upon energization causes an upward movement of brushes I16 into engagement with the pattern card.

Upon extension I14 is mounted a brush carrier,

for automatically ejecting the punched card,

after the card is positioned to the last column position, and returning the card carriage to pick up another card, from the picker, for subsequent punching operations. After the positioning of the last column of the card to the punching positiorr', the last column contacts LC are closed, by means of bracket I42 secured to rack I35. It will be explained later, how the closure of contacts LC eflects energization of the ejector magnet I43. Upon energization of magnet I43, the associated armature I44 is partially rotated, in a clockwise direction, to actuate the associated mechanism to release latch I45. This permits spring I46 to move rack I 41 to the right, as viewed in Fig. 13, and gears I48 to actuate the gripper jaws I40 and I50, thereby raising the card just punched, and depositing it upon the stack I5I. Return of the said laws is accomplished, by movement of the rack I 41, to the left, by the end of rack I52 (Fig. 11), during the return of the card carriage, which will be described presently. It should be mentioned, at this time, that suitably disposed auto-start control contacts AC (see Fig. 14A) are provided, so that these contacts are closed by the rack I41, when the latter is positioned to the right, as viewed in Fig. 13 (these contacts are designated 20I in the said Patent No. 1,976,618).

It will be shown later, that closure of contacts AC causes the clutch trip magnet I63 to be energized. Referring now to Figs. 10 and 11, upon energization of the said magnet I53, armature I54 is partially rotated, in a clockwise direction, to cause the attached arm I55 to depress block I56 under the shoulder of latch I51, thereby causing the latch contacts C'I'I to be held open, and contacts GT2 closed. It will be shown, that closure of contacts GT2, causes the carriage return motor M to be energized, the latter, in turn, causing the shaft I56 to be rotated.

Another arm I59, attached to said armature I54, is depressed to cause the pawl I60 to engage one of the teeth of ratchet I6I, the latter being secured to shaft I55. The pawl I60 is pivotally carried by disk I32, which disk, in turn, is secured to gear I63, so that gear I63 is set into rotation, 

